Geoscience Reference
In-Depth Information
Mooney, W. D., Andrews, M. C., Ginzburg, A., Peters, D. A., and Hamilton, R. M. (1983).
Crustal structure of the northern Mississippi embayment and a comparison with other
continental rift zones.
Tectonophysics
, 94, 327-348.
Morino, M., Malik, J. N., Mishra, P., Bhuiyan, C., and Kaneko, F. (2008a). Active fault
traces alongBhuj fault andKatrol hill fault, and trenching survey atWandhay, Kachchh,
Gujarat, India.
Journal of Earth System Science
, 117(3), 181-188.
Morino, M., Malik J. N., Gadhavi M. S.,
et al
. (2008b). Active low-angle reverse fault
and wide quaternary deformation identified in Jhura Trench across Kachchh Mainland
Fault, Kachchh, Gujarat, India.
Journal of Active Fault Research, Japan
, 29, 71-77.
Mukherjee, S. M. (1942). Seismological features of the Satpura earthquake of the 14th
March 1938.
Proceedings of Indian Academy of Sciences
, 16, 167-175.
Nagabhushan Rao, Ch. (2012). Moment tensor and fault mechanism solutions.
ISR Annual
Report 2011-12
, pp. 10-11,
www.isr.gujarat.gov.in
.
Nyblade, A. A., and Langston, C. A. (1995). East African earthquakes below 20 km depth
and their implications for crustal structure.
Geophysical Journal International
, 121,
49-62.
Padhy, S., and Crampin, S. (2006). High pore-fluid pressures at Bhuj, inferred from 90
-
flips in shear-wave polarizations.
Geophysical Journal International
, 164, 370-
376.
Pandey, O. P., Chandrakala, K., Parthasarathy, G., Reddy, P. R., and Koti Reddy, G. (2009).
Upwarped high velocity mafic crust, subsurface tectonics and causes of intra plate
Latur-Killari (M 6.2) and Koyna (M 6.3) earthquakes, India: a comparative study.
Journal of Asian Earth Sciences
, 34, 781-795.
Paul, J., Burgmann, R., Gaur, V. K.,
et al
. (2001). The motion and active deformation of
India.
Geophysical Research Letters
, 28(4), 647-651.
Paul, D. K., Ray, A., Das, B., Patil, S. K., and Biswas, S. K. (2008). Petrology, geochemistry
and paleomagnetism of the earliest magmatic rocks of Deccan Volcanic Province,
Kutch, Northwest India.
Lithos
, 102(1-2), 237-259.
Pratt, T. L. (2012). Kinematics of the New Madrid seismic zone, central United States,
based on stepover models.
Geology
, 40, 371-374.
Prodehl, C., Keller, G. R., and Khan, M. A. (1994). Crustal and upper mantle structure of
the Kenya rift,
Tectonophysics
, 236, 483.
Rajendran, C. P. (2000). Using geological data for earthquake studies: a perspective from
peninsular India,
Current Science
, 79(9), 1251-1258.
Rajendaran, C. P., and Rajendaran, K. (1998). Characteristics of the 1997 Jabalpur earth-
quake and their bearing on its mechanism.
Current Science
, 74, 168-177.
Rajendran, C. P., and Rajendran, K. (2001), Characteristics of deformation and past seis-
micity associated with the 1819 Kutch earthquake, northwestern India.
Bulletin of the
Seismological Society of America
, 91(3), 407-426.
Rajendran, K., and Rajendran, C. P. (2002). Historical constraints on previous seismic
activity and morphologic changes near the source zone of the 1819 Rann of Kachchh
earthquake: further light on the penultimate event.
Seismological Research Letters
,
73, 470-479.
Rajendran, K., and Rajendran, C. P. (2003). Seismogenesis in the stable continental regions
and implications for hazard assessment: two recent examples from India.
Current
Science
, 85(7), 896-903.
Rastogi, B. K. (2001). Ground deformation study of M
w
7.7 Bhuj earthquake of 2001.
Episodes
, 30(1), 160-165.
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